JP2004198639A - Portable equipment - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide portable equipment that attains cost reduction, consumption power reduction or the like and improves a degree of freedom of scroll display by relieving restriction of size of display data constituting a scroll face by the control circuit of a simple configuration and the memory of a small capacity. <P>SOLUTION: An address comparison part 100c always determines a scroll state of the display region of the scroll face in a VRAM 85 for the scroll face according to a status register (set contents) set in a register 104 for display control to properly generate an empty flag at need. When the empty flag is generated, a writing control part 100d writes new display data successively to a part displayed already on the scroll face on a region corresponding to the VRAM 85 for the scroll face according to the status register (set contents) set in the register 104 for the display control. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a portable device having a display function, and relates to display control when performing scroll surface display in image display.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, in a portable device having various display functions such as a portable television and a mobile phone, a scroll surface is displayed on a normal screen in order to perform an effective display within a limited display screen. A scroll plane display for scrolling predetermined display data is performed.
[0003]
In such a portable device, all display data for scroll display is previously written in a memory such as a VRAM, and only a portion of the display data to be displayed on a scroll surface is sequentially read out and displayed on a display unit. In some cases, a scroll display is performed by performing the above operation.
[0004]
For example, as a specific example of a display device having such a configuration, a liquid crystal display device disclosed in JP-A-9-6294 can be cited. In the liquid crystal display device, character data and fixed display data specified in advance are stored in a memory such as a ROM or a RAM, and the character data and fixed display data stored in the memory are stored in a liquid crystal driving circuit. Scroll display is performed by driving, that is, scrolling in the panel (for example, see Patent Document 1). This liquid crystal display device is used for a portable device such as a mobile phone.
[0005]
[Patent Document 1]
JP-A-9-6294
(Paragraphs [0002]-[0005], FIGS. 7 and 8)
[0006]
[Problems to be solved by the invention]
However, as described above, in the conventional portable device, in order to perform the scroll display, it is necessary to previously write all of the display data constituting the scroll surface into a memory such as a VRAM. Since the memory used for various portable devices is desired to have a small capacity from the viewpoint of cost reduction and power consumption reduction, the size of display data constituting the scroll surface (for example, the number of characters in a character string) is reduced. Was to be restricted.
[0007]
The present invention has been made in view of the above problems, and an object of the present invention is to ease the restriction on the size of display data forming a scroll surface by using a control circuit having a simple configuration and a memory having a small capacity. Accordingly, it is an object of the present invention to provide a portable device capable of realizing cost reduction, power consumption reduction, and the like and improving the degree of freedom of scroll display.
[0008]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, according to the first aspect of the present invention, a storage means for storing image data for displaying a normal screen and image data for displaying a scroll surface, and the image data for displaying a normal screen are written. A first frame memory, a second frame memory into which the scroll plane display image data is written, and the normal screen display image data and the scroll plane display image data from the storage means; After writing to the first frame memory and the second frame memory, the image data for normal screen display is read from the first frame memory, and the image for scroll surface display is read from the second frame memory. By sequentially reading out part of the data while changing its readout position and outputting these to the display device side, A display control means for performing control to scroll and display the image for scroll surface display on the scroll surface displayed on the normal screen, wherein the display control means comprises: When the image data has a size that cannot be written into the second frame memory, a preceding portion of the scroll plane display image data is read from the storage means, and is read out from the second frame memory. Then, every time a part of the preceding portion of the image data for scroll surface display is sequentially read from the second frame memory while changing the read position, and this is output to the display device side, And sequentially reading a subsequent portion of the scroll plane display image data from the storage unit, and reading the scroll plane display image data. The portion of the second frame memory by reading a portion of the preceding part of the over data, and performs control of writing this.
[0009]
According to a second aspect of the present invention, in the portable device according to the first aspect, the display control means reads out the scroll plane display image data from the storage means, and stores the read image data in the second frame. A write control unit for writing to a memory; and a read control unit for sequentially reading a part of the scroll plane display image data from the second frame memory while changing a read position thereof, and outputting the read data to a display device. A display control register for storing position information of a flag sending position set at a predetermined position in the second frame memory; and a display of the scroll surface read from the second frame memory by the read control unit. From the readout position of the image data for scrolling in the second frame memory to the second frame memory of the image data for displaying the scroll surface. An address detector for detecting the leading end position and the trailing end position, and a detection result from the address detector and a flag sending position stored in the display control register. The writing control unit reads a subsequent portion of the scroll plane display image data from the storage unit when a flag is generated by the address comparing unit, A part of the preceding part of the image data for scroll surface display is written to the second frame memory from which the part is read.
[0010]
According to a third aspect of the present invention, in the portable device according to the first or second aspect, the second frame memory displays the scroll surface corresponding to a size of a display area of the scroll surface. A first setting area and a second setting area in which areas only for storing a part of image data for use are secured. The first setting area and the second setting area are The second frame memory is provided at an adjacent position.
[0011]
According to a fourth aspect of the present invention, in the portable device according to the third aspect, the flag sending position includes an end position of the second frame memory, the first setting area, and the second setting area. It is provided at the boundary position of the setting area.
[0012]
According to a fifth aspect of the present invention, in the portable device according to any one of the second to fourth aspects, the write control unit is configured to control the second of the image data for the scroll surface display. The leading end position or the trailing end position in the frame memory coincides with the flag sending position provided at the boundary position between the first setting area and the second setting area, and the flag is generated by the address comparing unit. In this case, the subsequent portion of the image data for scroll surface display is read from the storage means, and a part of the preceding portion of the image data for scroll surface display is read into the first set area portion. A subsequent portion of the scroll plane display image data is written, and the rear end position of the scroll plane display image data in the second frame memory is set in the second frame memory. When a flag is generated by the address comparing unit in accordance with the flag sending position provided at the end position, a subsequent portion of the scroll plane display image data is read from the storage unit, and the scroll plane is read. A subsequent part of the scroll plane display image data is written in the second set area where a part of the preceding part of the display image data is read.
[0013]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an example of a preferred embodiment of a portable device according to the present invention will be specifically described with reference to the drawings.
[0014]
FIG. 1 is a perspective view illustrating an overall configuration of a mobile device according to the present embodiment. The portable device 40 has various functions (operations) such as a television reception function, an FM broadcast reception function, a sound reproduction function recorded on a medium, and an image reproduction function capable of reproducing an image captured by a digital camera or the like. Mode), and these functions (operation modes) can be arbitrarily selected by a selection switch 52 described later. As shown in FIG. 1, the portable device 40 includes a display unit 44 on the upper front surface of a main body 42, which is composed of a liquid crystal panel having a size of several inches. It is configured so that it can be shielded or exposed by a lid 46 that can be freely opened and closed.
[0015]
A main switch 50 is provided on a side portion of the main body 42, and the portable device 40 can be turned on and off by operating the main switch 50. A selection switch 52 composed of a jog switch is provided below the main switch 50. By operating the selection switch 52, a television reception mode (TV function), an FM radio reception mode (FM function), Selection of an operation mode (function) including an audio mode (audio function) for reproducing sound (music) recorded on a medium, a digital camera mode (digital camera function) for displaying an image captured by a digital camera or the like, and a television. In addition to being able to select a station in the reception mode or the FM radio reception mode and select a music in the audio mode, various settings such as a method of selecting a channel in the television reception mode or the FM radio reception mode and a method of repeating sound reproduction in the audio mode can be performed. It has become. A menu switch 54 is provided between the main switch 50 and the selection switch 52. By operating the menu switch 54, a menu screen can be displayed.
[0016]
A volume control switch 86 (not shown) (see FIG. 2) is provided on the upper end side surface of the main body 42. Further, the main body 42 is provided with an earphone jack serving as an audio output unit, and sound (sound) can be output by a headphone or an earphone via the earphone jack. Further, the main body 42 is provided with an insertion slot (not shown) for mounting a memory card serving as an external storage device, and a memory card for recording music or a memory card for recording an image is provided. Music playback and image playback can be performed via a (memory card I / F) 76 (see FIG. 2).
[0017]
FIG. 2 is a block diagram illustrating a circuit configuration of the portable device 40. The portable device 40 includes an antenna 56 for receiving a television or FM radio broadcast. The antenna 56 is connected to a TV tuner 58 as a television receiver for receiving a television broadcast and an FM tuner 60 as a radio receiver for receiving an FM radio broadcast (FM broadcast). . An IF / chroma processing unit 62 is connected to the output side of the TV tuner 58 so that a TV video signal corresponding to the three primary colors of RGB can be extracted. The video signal extracted by the IF / chroma processing unit 62 is provided to a display switching unit 64 connected to the output side of the IF / chroma processing unit 62.
[0018]
On the other hand, the audio signal received by the TV tuner 58 is detected by an audio detection unit 68 connected to the IF / chroma processing unit 62. An audio amplifier 70 is connected to the output side of the audio detector 68, and the audio signal extracted by the audio detector 68 is supplied to the audio amplifier 70. The audio amplifier 70 also receives an audio signal received by the FM tuner 60.
[0019]
The TV tuner 58 and the FM tuner 60 are connected to the device control unit (CPU) 74 and control the channel selection. Further, the device control unit (CPU) 74 can read out sound (music) data and image data recorded on the memory card via a memory card interface (memory card I / F) 76.
[0020]
Further, an audio / image reproduction unit 80 is connected to the device control unit (CPU) 74. The sound / image reproduction unit 80 is controlled by a device control unit (CPU) 74, and stores sound (music) data and image data recorded on a memory card via a memory card I / F 76, or a memory (flash memory). The image data stored in 78 is read, and the image data is output to the image control unit 82.
[0021]
A normal image VRAM 84 and a scroll surface VRAM 85 are connected to the image control unit 82. The reproduced image data is written into these VRAMs 84 and 85, and these image data are read from the VRAMs 84 and 85 during display. And outputs it to the display switching unit 64. The television image and image data input to the display switching unit 64 are selected by a control signal from a device control unit (CPU) 74 and output to the image display control unit 66. The image display control unit 66 drives a liquid crystal panel included in the display unit 44 to display an image. The operation unit 55 including the main switch 50 described above is connected to the device control unit (CPU) 74 via an interface circuit (not shown).
[0022]
The audio amplifier 70 selects a signal to be output from the input audio signal of the television, the audio signal of the FM radio, and the audio data converted into the analog signal by the control signal from the device control unit (CPU) 74. The signal is amplified, and the amplified signal is sent to a sound generation unit (sound output unit) 72 such as a headphone and output as a sound.
[0023]
In the portable device 40, when the main switch 50 is turned on in the initial state, a menu screen shown in FIG. The portable device 40 stores an operation state such as an operation mode selected when the power is turned off by the main switch 50. When the main switch 50 is turned on again, the main switch 50 is turned off. The operating state selected at the time of starting automatically starts. For example, when the main switch 50 is turned off while the mobile device 40 is receiving a television image in the television reception mode, the operation state at that time is written and stored in the memory (flash memory) 78. Then, the television broadcast of the channel at the time when the main switch 50 is turned off next is received, and the image of the received channel is displayed on the display unit 44. Also, when the menu switch 54 is operated, the menu screen shown in FIG.
[0024]
The menu screen is a screen for selecting each operation mode (each function) of the portable device 40, and selectable functions are displayed by characters. Then, for example, when the menu screen is displayed during reception of the FM broadcast in the FM radio reception mode, as shown in FIG. 3B, the item of the “FM function” which is the currently selected operation mode (function) Is highlighted. Here, the operation mode is selected by operating the selection switch 52 composed of a jog switch provided on the main body 42 to move the cursor in the vertical direction.
[0025]
When the receiving switch is switched by the selection switch 52 or a channel search is performed during reception of a television image in the television reception mode (TV function), the device control unit (CPU) 74 outputs a channel switching signal to the TV tuner 58. I do. The brightness of the display unit 44 can be adjusted by operating the selection switch 52, and the volume can be adjusted by operating the volume adjustment switch 86.
[0026]
Further, the mode is switched from the television reception mode (TV function) to another operation mode (function), for example, an audio mode (audio function) in which a memory card is inserted and music recorded through the memory card I / F 76 is reproduced. Then, the device control unit (CPU) 74 outputs a switching signal to the display switching unit 64, and causes the image display control unit 66 to output a signal from the image control unit 82. Then, the audio / image reproduction unit 80 reads the music data recorded on the memory card, decodes the music data into an analog signal, and outputs an analog audio signal to the audio amplification unit 70. Further, data such as an artist name and a song name recorded on the memory card is read by the device control unit (CPU) 74 and output to the image control unit 82. The image control unit 82 creates frame data to be displayed on the display unit 44 based on the image data input by the device control unit (CPU) 74, and outputs the frame data to the display switching unit 64. As a result, as shown in FIG. 4, information on the reproduced music, such as the artist name, music name (title), and track number, is displayed on the display unit 44 as an image.
[0027]
Note that the device control unit (CPU) 74 outputs a tuning signal to the FM tuner 60 when the FM radio reception mode is selected and a tuning operation is performed by the selection switch 52. Then, the device control unit (CPU) 74 creates image data including information indicating that the FM radio reception mode has been selected, information on the reception frequency, and the like, and provides the image data to the image control unit 82. The image control unit 82 creates frame data to be displayed on the display unit 44 and outputs the frame data to the display switching unit 64. As a result, information indicating that the FM radio reception mode has been selected, information on the reception frequency, and the like are displayed on the display unit 44 as images.
[0028]
On the other hand, when the digital camera mode (digital camera function) for displaying an image captured by a digital camera or the like is selected, the image data recorded on the memory card is read out by the audio / image reproducing unit 80, The data is decompressed and output to the image control unit 82. The image control unit 82 creates frame data to be displayed on the display unit 44 based on the image data from the audio / image reproduction unit 80, and outputs the frame data to the display switching unit 64. Thus, an image captured by a digital camera or the like is displayed on the display unit 44.
[0029]
By the way, a display switch 48 that outputs a pulse signal in conjunction with opening and closing of the lid 46 is provided at the base of the lid 46. This display switch 48 is provided to an equipment control unit (CPU) 74 by an interface (not shown). They are connected via a circuit. The device control circuit 74 determines the open / closed state of the lid 46 based on the pulse signal and notifies the image display control unit 66 of the open / closed state of the lid 46. Based on the notification, the image display control unit 66 turns on the display unit 44 when the cover 46 is released and the display unit 44 is exposed, and displays a television image or image, and closes the display when the cover 46 is closed. When the unit 44 is shielded, the driving of the display unit 44 is switched so that the display unit 44 is turned off and the image disappears.
[0030]
When the image display control unit 66 turns off the display unit 44, the output of the image signal and the drive signal to the liquid crystal panel of the display unit 44 is stopped, and the power supply to the display unit 44 is also stopped. Thus, in a state where the cover 46 is closed and the display unit 44 is shielded, that is, in a state where the display unit 44 cannot be seen by the user, power consumption can be reduced by turning off the display unit 44.
[0031]
FIG. 5 is a block diagram showing a circuit configuration of the image control unit 82. The image control unit 82 shown in FIG. 5 controls display on the display unit 44 together with the device control unit (CPU) 74, and includes a VRAM control unit 100, a VRAM read / write buffer 102, a display control register 104, and a display line. It comprises a memory 106. In such a configuration, the device control unit (CPU) 74 reads the image data forming the normal screen and the scroll plane from an external storage unit such as a flash memory, and reproduces the image reproduced by the audio / image reproduction unit 80. Depending on whether the data constitutes the normal screen or the data constituting the scroll plane, the data is selected and written into either the normal screen VRAM 84 or the scroll plane VRAM 85, and the images of the normal screen and the scroll plane are respectively written. To draw. The VRAM control unit 100 further reads out the image data written in the VRAM 84 for the normal screen and the VRAM 85 for the scroll surface one line at a time, and writes the image data in the display line memory 106. The image data written in the display line memory 106 is sequentially read out and displayed by the display unit 44.
[0032]
The display control register 104 of the image control unit 82 includes various types of devices necessary for the device control unit (CPU) 74 to perform scrolling of a scroll surface on a normal screen displayed on the display unit 44, that is, scroll display. Stores display control data.
[0033]
6A and 6B show the correspondence between the normal screen displayed on the display unit 44 and the scroll plane. As shown in FIGS. 6A and 6B, a scroll surface is displayed at a predetermined position on the normal screen, and predetermined display data is scrolled on the scroll surface. At this time, the device control unit (CPU) 74 performs display control related to scroll display based on various display control data stored in the display control register 104. Specifically, the display control register 104 previously stores display control data as described below, and the device control unit (CPU) 74 sets a scroll plane to a predetermined value according to the display control data (parameter). And a control to scroll the display data (character string in this example) at a predetermined cycle, direction and pitch on this scroll plane.
(A) Parameters related to the display area of the scroll surface
Display window position (top left position of display window)
Display window range (vertical, horizontal = dot)
(B) Parameters related to scrolling of display data
Display data start position (vertical, horizontal = VRAM address → predetermined dot unit)
Display data range (horizontal = predetermined dot unit)
Scroll speed: Integer multiple of vertical cycle
Scroll pitch: 1 dot unit
Whether there is scrolling (movement)
Whether to display scrolling (permission to scroll)
Scroll character range (vertical, horizontal = predetermined dot)
Empty flag sending position (the number of remaining display dots in the horizontal direction → 1 character = predetermined dot unit, which must be set wider than the display data range)
(C) Fixed parameters related to scrolling of display data
Scroll direction (lateral left)
Number of scroll characters (arbitrary horizontal, vertical within specified dots)
[0034]
The parameter (a) is a parameter for specifying a display area (display window area) of the scroll surface on the display screen of the display unit 44. The parameter (b) is a parameter used when the display data written in the scroll plane VRAM 85 is scrolled on the scroll plane. For example, the scroll cycle is such that the scroll movement is synchronized with the display cycle. This is set to eliminate the disturbance, and is set to an integral multiple of the vertical synchronization of the screen display. The scroll pitch is a movement amount when the display position (display address) is moved for each time of the scroll cycle. The presence / absence of scrolling (movement) is for selecting whether or not to scroll the display data on the scroll surface. When this scrolling (movement) is set to “none”, the scrolling of the display data is performed. Instead, a still screen is displayed in the same manner as the normal screen. The empty flag sending position is a value indicating the number of dots when a predetermined number of dots is set from the right end of the effective display area in the scroll surface VRAM 85 as a set area. Further, the parameter (c) is a parameter as a condition fixed in advance when the display data is scrolled on the scroll surface. In this example, the scroll direction is set to the horizontal left direction, and the number of scroll characters is The horizontal direction is arbitrary, and the vertical direction is within a predetermined dot.
[0035]
FIG. 7 is an explanatory diagram showing the correspondence between the normal screen drawn on the normal screen VRAM 84 and the scroll plane drawn on the scroll plane VRAM 85.
[0036]
As shown in FIG. 7, the VRAM control unit 100 does not read the data of the area D where the scroll plane is located from the normal screen data drawn in the normal screen VRAM 84, and The scroll plane data drawn on the scroll plane VRAM 85, that is, the character string is read. Although FIG. 7 shows a state in which a character string of a portion located at the reading position C is read out of the character strings drawn on the scroll surface VRAM 85, the VRAM control unit 100 reads, for example, From the position A (the n-th time), the character strings of the portions located at the read position B (n + 1) and the read position C (n + 2) are sequentially read at every scroll pitch, and the character strings are copied to the display line memory 106 and displayed on the display unit. The character 44 is scrolled and displayed on the scroll surface on the normal screen by sequentially reading and displaying the data written in the display line memory 106.
[0037]
Here, a scroll plane display performed when an audio function is selected on the menu screen and music is reproduced will be described.
[0038]
Note that the scroll plane display performed when the audio function is selected and the music is reproduced on this menu screen is the scroll display in which the artist name and the title are connected on the reproduction screen (FIG. 4), when the scroll plane data drawn on the scroll plane VRAM 85 is relatively large, that is, when the display data range displayed on the scroll plane does not fit within the scroll range of the scroll plane VRAM 85. Has become. In such a case, as described below, the device control unit (CPU) 74 and the image control unit 82 perform display control for performing scroll surface display, which is a feature of the present invention.
[0039]
FIG. 8 is a block diagram illustrating a detailed configuration of the VRAM control unit 100. As shown in FIG. 8, the VRAM control unit 100 includes a display control register 104, a read control unit 100a, an address detection unit 100b, an address comparison unit 100c, a write control unit 100d, and a read / write arbitration unit 100e. It is composed of The display control register 104 shown in FIG. 8 corresponds to the display control register 104 in FIG. 5, and may be provided inside the VRAM control unit 100 as described above. Further, the read control unit 100a, the address detection unit 100b, and the address comparison unit 100c do not necessarily have to be separated, and may be configured as one read unit.
[0040]
In such a configuration, the display control register 104 notifies the device control unit (CPU) 74 of the reading state and the like together with the display control data (parameter) described above. The read control unit 100a reads display data (normal screen and scroll plane) necessary for display from the normal screen VRAM 84 and the scroll plane VRAM 85 in synchronization with the horizontal synchronization signal for screen display. Further, the address detection unit 100b monitors the operation of the read control unit 100a and determines an address (not a read address but a display data to be read, which is used to determine a state related to a data read position of the VRAM 84 for the normal screen and the VRAM 85 for the scroll surface. (The address corresponding to the right end position of). Further, the address comparison unit 100c compares the result calculated by the address detection unit 100b with the content set in the display control register 104, and determines the state regarding the data read position of the normal screen VRAM 84 and the scroll plane VRAM 85. The determination is made to generate a flag, or the contents of the display control register 104 are changed.
[0041]
FIG. 9 shows a flow of display control for scroll surface display by the device control unit (CPU) 74 and the VRAM control unit 100. As described above, in the portable device 40, when the main switch 50 is turned on, the menu screens shown in FIGS. 3A and 3B are displayed on the display unit 44 (this state is referred to as an initial state). ) (S41). Then, when music is reproduced by selecting, for example, the audio function on this menu screen, the artist and the title are scroll-displayed on the display unit 44 as shown in FIG. At this time, the device control unit (CPU) 74 sets the above-described display control data (parameter) in the display control register 104 to perform scroll display (S42). The device control unit (CPU) 74 reads and reproduces image data constituting the scroll surface from the memory card via the memory card I / F 76 and from the flash memory 78, and reads / writes the reproduced image data from the VRAM. Write to the buffer 102. When the image data is written into the VRAM read / write buffer 102, the write control unit 100d of the VRAM control unit 100 reads the image data, writes the read image data into the scroll plane VRAM 85, and draws an image of the scroll plane (S43). At this time, in the scroll plane VRAM 85, of the images (character strings) to be actually scroll-displayed, only the amount that can be written to the capacity of the scroll plane VRAM 85 from the side of the image to be displayed first is stored. The read control unit 100a of the VRAM control unit 100 reads out the image data written in the VRAM 85 for the scroll surface in the above-described process and the image data written in the VRAM 84 for the normal screen in another process line by line, and displays the image data. To the line memory 106. Further, the image data written in the display line memory 106 is read out line by line by the image display control unit 66 via the display switching unit 64 and displayed on the display unit 44. Thereby, both the normal screen and the image of the scroll plane are displayed on the display unit 44, and the scroll display is started (S44).
[0042]
At this time, the scroll state of the display data (data actually displayed on the scroll surface) is determined by the address comparing unit 100c. Specifically, the address comparison unit 100c determines which of the plurality of defined reference states corresponds to the scroll state of the display data in order to determine the scroll state of the display data. . The plurality of defined states serving as the reference are called status. This status is stored in the status register of the display control register 104.
[0043]
Here, the specific contents of the plurality of defined states that serve as status setting criteria will be described with reference to FIG. As shown in FIG. 10, the scroll surface VRAM 85 has a portion displayed on the scroll surface, that is, an area in which display data can be written in an area at least twice as large as the scroll surface display area. Further, two setting areas (a first setting area and a second setting area) are provided with a position where an empty flag occurs (an empty flag position) interposed therebetween. In such a configuration, the states shown in FIGS. 10A to 10E are a plurality of defined states that serve as references, and are specifically described as follows.
(A) The right end (rear end) of the scroll surface display area does not cover the second setting area. = No rewriting required
(B) The right end (rear end) of the scroll surface display area covers the second set area.
= Empty flag is generated
= (First setting area-scroll area display area) can be rewritten
(C) The left end (readout position) of the scroll surface display area extends over the second set area. = Rewriting of the rest of the first setting area is possible
(D) The left end (reading position) of the scroll surface display area does not fall on the first setting area. = No rewriting required
(E) The left end (readout position) of the scroll surface display area covers the first set area. = Rewriting of the second setting area is possible
[0044]
The empty flag defines the timing at which the writing control unit 100d of the VRAM control unit 100 writes image data that is insufficient to continue scrolling display to the scroll surface VRAM 85, and writes the image data to the scroll surface VRAM 85. The remaining data (the part of the display data written to the scroll plane VRAM 85, which is on the right side of the scroll plane display area and has not been displayed yet) has become smaller than the set range (dot). The case (when the end of the scroll surface display area reaches the empty flag position) and the rest of the data written to the scroll surface VRAM 85 (of the display data written to the scroll surface VRAM 85, Part on the right side that has not been displayed yet) And one in which the left end of the scroll surface display area (read position) is generated when it reaches the end of the scroll face for VRAM85. Incidentally, the position (address) of the scroll surface display area in the scroll surface VRAM 85 is calculated by the address detection unit 100b. The empty flag is compared with the result calculated by the address detection unit 100b and the content set in the display control register 104 by the address comparison unit 100c, as shown in FIGS. 10A to 10E. This is generated by determining the state of the scroll surface display area in the scroll surface VRAM 85 shown in FIG. When the empty flag is generated, the write control unit 100d writes new display data to a corresponding area of the scroll plane VRAM 85.
[0045]
That is, the address comparing unit 100c determines which of the states shown in FIGS. 10A to 10E the scroll state of the scroll plane display area in the scroll plane VRAM 85 corresponds to. More specifically, first, it is determined whether or not the right end of the scroll surface display area has reached the second set area (empty flag position) (S45). Here, if it is determined to be Yes, an empty flag is generated by the address comparing unit 100c, and the writing control unit 100d rewrites the display data in the area excluding the scroll plane display area from the first setting area. (S46). Next, the address comparing unit 100c determines whether or not the left end of the scroll surface display area has reached the second set area (S47). Here, when the determination is Yes, the empty flag is generated by the address comparing unit 100c, and the writing control unit 100d rewrites the display data in the remaining area of the first setting area (S48). Next, the address comparison unit 100c determines whether or not the left end of the scroll plane display area has reached the end of the scroll plane VRAM 85, that is, the first set area (S49). Here, if it is determined as Yes, an empty flag is generated by the address comparing unit 100c, and the writing control unit 100d rewrites the display data in the second setting area (S50). Thereafter, the steps S45 to S50 are repeated until the scroll display is completed, for example, by operating the selection switch 52 formed of a jog switch provided on the main body 42 to select an operation mode. The device control unit (CPU) 74 determines whether or not to end the scroll display even during these steps are repeated (S51). Here, if the determination is Yes, the scroll display is terminated (S52) and the initial state, that is, the initial state in which the menu screens shown in FIGS. The process proceeds to (S41).
[0046]
As described above, in the portable device according to the present embodiment, the device control unit (CPU) 74 and the image control unit 84 adjust the scroll surface at any time according to the scroll state of the scroll surface display area in the scroll surface VRAM 85. Is read from the memory card or the flash memory 78 and is (partially) written into the scroll surface VRAM 85. For example, the display data displayed on the scroll surface Is relatively large, that is, even if the display data cannot be completely written in the scroll range of the scroll surface VRAM 85, it is possible to scroll the display data. Therefore, the limitation on the size of the display data displayed on the scroll surface can be eased, and the degree of freedom of the scroll display can be improved.
[0047]
In addition, in order to realize such a scroll display (a scroll display in which the limitation of the size of the display data displayed on the scroll surface is relaxed), particularly a new component is required in the mobile device according to the present embodiment. This can be realized by a control circuit having a simple configuration that is the same as the conventional one and a memory having a small capacity. For example, such a scroll display (scroll display) can be realized by increasing the memory capacity. As compared with the case of realizing (scroll display in which the limitation of the size of the display data displayed on the screen is eased), it is possible to realize cost reduction, power consumption reduction, and the like.
[0048]
Note that, in the present embodiment, an example has been described in which the artist name and title of the selected song are scroll-displayed on the display unit when the audio function is selected on the menu screen and music is reproduced. However, the mobile device according to the present invention is not limited to such an example, and may be similarly applied if a part of the screen is scroll-displayed on various screens.
[0049]
【The invention's effect】
As described above, according to the portable device of the present invention, the limitation of the size of the display data displayed on the scroll surface is eased by the control circuit having the same simple structure as the conventional device and the memory having the small capacity. As a result, cost reduction and power consumption can be reduced, and the degree of freedom of scroll display can be improved.
[Brief description of the drawings]
FIG. 1 is a perspective view illustrating an overall configuration of a mobile device according to an embodiment of the present invention.
FIG. 2 is a block diagram illustrating a control configuration of the mobile device illustrated in FIG.
FIG. 3 is an explanatory diagram for explaining a display mode when a menu screen is displayed on a display unit of the mobile device shown in FIG. 1;
FIG. 4 is an explanatory diagram for explaining a scroll operation of a scroll surface of a display unit when music is reproduced by selecting an audio function in the portable device shown in FIG. 1;
5 is a block diagram illustrating a detailed control configuration of an image control unit illustrated in FIG.
FIG. 6 is an explanatory diagram for explaining a correspondence between a normal screen displayed on a display unit of the portable device shown in FIG. 1 and a scroll surface.
7 is an example of an explanatory diagram showing a correspondence between a normal screen drawn in a normal screen VRAM and a scroll surface drawn in a scroll surface VRAM in the portable device shown in FIG. 1;
8 is a block diagram illustrating a detailed control configuration of a VRAM control unit illustrated in FIG.
FIG. 9 is a flowchart showing operations of a device control unit (CPU) and a VRAM control unit when performing scroll display in the portable device shown in FIG. 1;
FIG. 10 is an explanatory diagram for explaining operations of a device control unit (CPU) and a VRAM control unit when performing scroll display in the portable device shown in FIG. 1;
[Explanation of symbols]
64 Display switching unit
74 Equipment control unit (CPU)
82 Image control unit
84 Normal screen VRAM
85 VRAM for scroll surface
100 VRAM control unit
100a Read control unit
100b address detector
100c address comparison unit
100d write control unit
100e Read / Write mediation section
104 Display control register
102 VRAM read / write buffer
106 display line memory

Claims (5)

Storage means for storing image data for normal screen display and image data for scroll surface display, a first frame memory in which the image data for normal screen display is written, and image data for scroll surface display. The image data for the normal screen display and the image data for the scroll plane display are read from the second frame memory to be written and the storage means, and these are written to the first frame memory and the second frame memory. Thereafter, the image data for the normal screen display is read from the first frame memory, and a part of the image data for the scroll surface display is sequentially read from the second frame memory while changing the read position. By outputting these to the display device side, on the scroll surface displayed on the normal screen, Display control means performs control to scroll display the image for the serial scrolling screen display, a mobile device including,
The display control means, when the scroll plane display image data has a size that cannot be written into the second frame memory, precedes the scroll plane display image data from the storage means. After reading out the portion and writing it to the second frame memory, a part of the preceding portion of the scroll plane display image data is sequentially read from the second frame memory while changing the reading position. Each time this is output to the display device side, the subsequent portion of the scroll plane display image data is sequentially read from the storage means, and the preceding part of the scroll plane display image data is partially read. A portable device for controlling writing of the data into the second frame memory. The display control means reads out the image data for scroll surface display from the storage means, and writes the image data to the second frame memory; and a write control unit for reading the scroll plane display image data from the second frame memory. A part of the image data is sequentially read while changing the read position, and a read control unit for outputting the read data to the display device side, and position information of a flag sending position set at a predetermined position in the second frame memory are stored. A display control register to be stored, and a read position in the second frame memory of the scroll plane display image data read from the second frame memory by the read control unit. An address detector for detecting a leading end position and a trailing end position of the image data in the second frame memory; By comparing the detection result with the stored in the display control register flags delivery position from the detection unit includes an address comparator unit for generating a flag when they are the same,
The writing control unit, when a flag is generated by the address comparing unit, reads a subsequent portion of the scroll plane display image data from the storage unit, and reads a preceding part of the scroll plane display image data. 2. The portable device according to claim 1, wherein a portion of the portion is read and written into the portion of the second frame memory. The second frame memory includes a first setting area and a second setting area each having an area for storing a part of the scroll plane display image data corresponding to the size of the scroll plane display area. The first setting area and the second setting area are provided at positions adjacent to each other in the second frame memory. 3. The method according to claim 1, wherein the first setting area and the second setting area are provided adjacent to each other. Mobile devices. 4. The portable device according to claim 3, wherein the flag sending position is provided at an end position of the second frame memory and at a boundary position between the first setting area and the second setting area. The writing control unit may be configured such that a leading end position or a trailing end position of the scroll plane display image data in the second frame memory is provided at a boundary position between the first setting area and the second setting area. When the flag is generated by the address comparing unit in accordance with the flag sending position, the subsequent portion of the scroll plane display image data is read from the storage unit, and the scroll plane display image data is read. A subsequent part of the scroll plane display image data is written in the first set area where a part of the preceding part is read, and the second frame memory of the scroll plane display image data is written. At the end of the second frame memory coincides with the flag sending position provided at the end of the second frame memory, and a flag is generated by the address comparing unit. In this case, a subsequent portion of the scroll plane display image data is read out from the storage unit, and a part of the preceding part of the scroll plane display image data is read out to the second set area portion. The mobile device according to claim 2, wherein a subsequent portion of the image data for displaying the scroll surface is written.

Images